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author | Simon Marlow <simonmar@microsoft.com> | 2006-04-07 02:05:11 +0000 |
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committer | Simon Marlow <simonmar@microsoft.com> | 2006-04-07 02:05:11 +0000 |
commit | 0065d5ab628975892cea1ec7303f968c3338cbe1 (patch) | |
tree | 8e2afe0ab48ee33cf95009809d67c9649573ef92 /rts/Updates.h | |
parent | 28a464a75e14cece5db40f2765a29348273ff2d2 (diff) | |
download | haskell-0065d5ab628975892cea1ec7303f968c3338cbe1.tar.gz |
Reorganisation of the source tree
Most of the other users of the fptools build system have migrated to
Cabal, and with the move to darcs we can now flatten the source tree
without losing history, so here goes.
The main change is that the ghc/ subdir is gone, and most of what it
contained is now at the top level. The build system now makes no
pretense at being multi-project, it is just the GHC build system.
No doubt this will break many things, and there will be a period of
instability while we fix the dependencies. A straightforward build
should work, but I haven't yet fixed binary/source distributions.
Changes to the Building Guide will follow, too.
Diffstat (limited to 'rts/Updates.h')
-rw-r--r-- | rts/Updates.h | 361 |
1 files changed, 361 insertions, 0 deletions
diff --git a/rts/Updates.h b/rts/Updates.h new file mode 100644 index 0000000000..5872157c81 --- /dev/null +++ b/rts/Updates.h @@ -0,0 +1,361 @@ +/* ----------------------------------------------------------------------------- + * + * (c) The GHC Team, 1998-2004 + * + * Performing updates. + * + * ---------------------------------------------------------------------------*/ + +#ifndef UPDATES_H +#define UPDATES_H + +/* ----------------------------------------------------------------------------- + Updates + + We have two layers of update macros. The top layer, UPD_IND() and + friends perform all the work of an update. In detail: + + - if the closure being updated is a blocking queue, then all the + threads waiting on the blocking queue are updated. + + - then the lower level updateWithIndirection() macro is invoked + to actually replace the closure with an indirection (see below). + + -------------------------------------------------------------------------- */ + +#ifdef TICKY_TICKY +# define UPD_IND(updclosure, heapptr) \ + UPD_PERM_IND(updclosure,heapptr) +# define UPD_SPEC_IND(updclosure, ind_info, heapptr, and_then) \ + UPD_PERM_IND(updclosure,heapptr); and_then +#else +# define SEMI ; +# define UPD_IND(updclosure, heapptr) \ + UPD_REAL_IND(updclosure,INFO_PTR(stg_IND_info),heapptr,SEMI) +# define UPD_SPEC_IND(updclosure, ind_info, heapptr, and_then) \ + UPD_REAL_IND(updclosure,ind_info,heapptr,and_then) +#endif + +/* These macros have to work in both C and C--, so here's the + * impedence matching: + */ +#ifdef CMINUSMINUS +#define BLOCK_BEGIN +#define BLOCK_END +#define DECLARE_IPTR(info) W_ info +#define FCALL foreign "C" +#define INFO_PTR(info) info +#define ARG_PTR "ptr" +#else +#define BLOCK_BEGIN { +#define BLOCK_END } +#define DECLARE_IPTR(info) const StgInfoTable *(info) +#define FCALL /* nothing */ +#define INFO_PTR(info) &info +#define StgBlockingQueue_blocking_queue(closure) \ + (((StgBlockingQueue *)closure)->blocking_queue) +#define ARG_PTR /* nothing */ +#endif + +/* UPD_IND actually does a PERM_IND if TICKY_TICKY is on; + if you *really* need an IND use UPD_REAL_IND + */ +#define UPD_REAL_IND(updclosure, ind_info, heapptr, and_then) \ + BLOCK_BEGIN \ + DECLARE_IPTR(info); \ + info = GET_INFO(updclosure); \ + updateWithIndirection(ind_info, \ + updclosure, \ + heapptr, \ + and_then); \ + BLOCK_END + +#if defined(PROFILING) || defined(TICKY_TICKY) +#define UPD_PERM_IND(updclosure, heapptr) \ + BLOCK_BEGIN \ + updateWithPermIndirection(updclosure, \ + heapptr); \ + BLOCK_END +#endif + +#if defined(RTS_SUPPORTS_THREADS) + +# ifdef TICKY_TICKY +# define UPD_IND_NOLOCK(updclosure, heapptr) \ + BLOCK_BEGIN \ + updateWithPermIndirection(updclosure, \ + heapptr); \ + BLOCK_END +# else +# define UPD_IND_NOLOCK(updclosure, heapptr) \ + BLOCK_BEGIN \ + updateWithIndirection(INFO_PTR(stg_IND_info), \ + updclosure, \ + heapptr,); \ + BLOCK_END +# endif + +#else +#define UPD_IND_NOLOCK(updclosure,heapptr) UPD_IND(updclosure,heapptr) +#endif + +/* ----------------------------------------------------------------------------- + Awaken any threads waiting on a blocking queue (BLACKHOLE_BQ). + -------------------------------------------------------------------------- */ + +#if defined(PAR) + +/* + In a parallel setup several types of closures might have a blocking queue: + BLACKHOLE_BQ ... same as in the default concurrent setup; it will be + reawakened via calling UPD_IND on that closure after + having finished the computation of the graph + FETCH_ME_BQ ... a global indirection (FETCH_ME) may be entered by a + local TSO, turning it into a FETCH_ME_BQ; it will be + reawakened via calling processResume + RBH ... a revertible black hole may be entered by another + local TSO, putting it onto its blocking queue; since + RBHs only exist while the corresponding closure is in + transit, they will be reawakened via calling + convertToFetchMe (upon processing an ACK message) + + In a parallel setup a blocking queue may contain 3 types of closures: + TSO ... as in the default concurrent setup + BLOCKED_FETCH ... indicating that a TSO on another PE is waiting for + the result of the current computation + CONSTR ... an RBHSave closure (which contains data ripped out of + the closure to make room for a blocking queue; since + it only contains data we use the exisiting type of + a CONSTR closure); this closure is the end of a + blocking queue for an RBH closure; it only exists in + this kind of blocking queue and must be at the end + of the queue +*/ +extern void awakenBlockedQueue(StgBlockingQueueElement *q, StgClosure *node); +#define DO_AWAKEN_BQ(bqe, node) STGCALL2(awakenBlockedQueue, bqe, node); + +#define AWAKEN_BQ(info,closure) \ + if (info == &stg_BLACKHOLE_BQ_info || \ + info == &stg_FETCH_ME_BQ_info || \ + get_itbl(closure)->type == RBH) { \ + DO_AWAKEN_BQ(((StgBlockingQueue *)closure)->blocking_queue, closure); \ + } + +#elif defined(GRAN) + +extern void awakenBlockedQueue(StgBlockingQueueElement *q, StgClosure *node); +#define DO_AWAKEN_BQ(bq, node) STGCALL2(awakenBlockedQueue, bq, node); + +/* In GranSim we don't have FETCH_ME or FETCH_ME_BQ closures, so they are + not checked. The rest of the code is the same as for GUM. +*/ +#define AWAKEN_BQ(info,closure) \ + if (info == &stg_BLACKHOLE_BQ_info || \ + get_itbl(closure)->type == RBH) { \ + DO_AWAKEN_BQ(((StgBlockingQueue *)closure)->blocking_queue, closure); \ + } + +#endif /* GRAN || PAR */ + + +/* ----------------------------------------------------------------------------- + Updates: lower-level macros which update a closure with an + indirection to another closure. + + There are several variants of this code. + + PROFILING: + -------------------------------------------------------------------------- */ + +/* LDV profiling: + * We call LDV_recordDead_FILL_SLOP_DYNAMIC(p1) regardless of the generation in + * which p1 resides. + * + * Note: + * After all, we do *NOT* need to call LDV_RECORD_CREATE() for both IND and + * IND_OLDGEN closures because they are inherently used. But, it corrupts + * the invariants that every closure keeps its creation time in the profiling + * field. So, we call LDV_RECORD_CREATE(). + */ + +/* In the DEBUG case, we also zero out the slop of the old closure, + * so that the sanity checker can tell where the next closure is. + * + * Two important invariants: we should never try to update a closure + * to point to itself, and the closure being updated should not + * already have been updated (the mutable list will get messed up + * otherwise). + * + * NB. We do *not* do this in THREADED_RTS mode, because when we have the + * possibility of multiple threads entering the same closure, zeroing + * the slop in one of the threads would have a disastrous effect on + * the other (seen in the wild!). + */ +#ifdef CMINUSMINUS + +#define FILL_SLOP(p) \ + W_ inf; \ + W_ sz; \ + W_ i; \ + inf = %GET_STD_INFO(p); \ + if (%INFO_TYPE(inf) != HALF_W_(THUNK_SELECTOR) \ + && %INFO_TYPE(inf) != HALF_W_(BLACKHOLE) \ + && %INFO_TYPE(inf) != HALF_W_(CAF_BLACKHOLE)) { \ + if (%INFO_TYPE(inf) == HALF_W_(AP_STACK)) { \ + sz = StgAP_STACK_size(p) + BYTES_TO_WDS(SIZEOF_StgAP_STACK_NoThunkHdr); \ + } else { \ + if (%INFO_TYPE(inf) == HALF_W_(AP)) { \ + sz = TO_W_(StgAP_n_args(p)) + BYTES_TO_WDS(SIZEOF_StgAP_NoThunkHdr); \ + } else { \ + sz = TO_W_(%INFO_PTRS(inf)) + TO_W_(%INFO_NPTRS(inf)); \ + } \ + } \ + i = 0; \ + for: \ + if (i < sz) { \ + StgThunk_payload(p,i) = 0; \ + i = i + 1; \ + goto for; \ + } \ + } + +#else /* !CMINUSMINUS */ + +INLINE_HEADER void +FILL_SLOP(StgClosure *p) +{ + StgInfoTable *inf = get_itbl(p); + nat i, sz; + + switch (inf->type) { + case BLACKHOLE: + case CAF_BLACKHOLE: + case THUNK_SELECTOR: + return; + case AP: + sz = ((StgAP *)p)->n_args + sizeofW(StgAP) - sizeofW(StgThunkHeader); + break; + case AP_STACK: + sz = ((StgAP_STACK *)p)->size + sizeofW(StgAP_STACK) - sizeofW(StgThunkHeader); + break; + default: + sz = inf->layout.payload.ptrs + inf->layout.payload.nptrs; + break; + } + for (i = 0; i < sz; i++) { + ((StgThunk *)p)->payload[i] = 0; + } +} + +#endif /* CMINUSMINUS */ + +#if !defined(DEBUG) || defined(THREADED_RTS) +#define DEBUG_FILL_SLOP(p) /* do nothing */ +#else +#define DEBUG_FILL_SLOP(p) FILL_SLOP(p) +#endif + +/* We have two versions of this macro (sadly), one for use in C-- code, + * and the other for C. + * + * The and_then argument is a performance hack so that we can paste in + * the continuation code directly. It helps shave a couple of + * instructions off the common case in the update code, which is + * worthwhile (the update code is often part of the inner loop). + * (except that gcc now appears to common up this code again and + * invert the optimisation. Grrrr --SDM). + */ +#ifdef CMINUSMINUS +#define generation(n) (W_[generations] + n*SIZEOF_generation) +#define updateWithIndirection(ind_info, p1, p2, and_then) \ + W_ bd; \ + \ + DEBUG_FILL_SLOP(p1); \ + LDV_RECORD_DEAD_FILL_SLOP_DYNAMIC(p1); \ + StgInd_indirectee(p1) = p2; \ + foreign "C" wb() []; \ + bd = Bdescr(p1); \ + if (bdescr_gen_no(bd) != 0 :: CInt) { \ + foreign "C" recordMutableCap(p1 "ptr", \ + MyCapability() "ptr", \ + bdescr_gen_no(bd)) [R1]; \ + SET_INFO(p1, stg_IND_OLDGEN_info); \ + LDV_RECORD_CREATE(p1); \ + TICK_UPD_OLD_IND(); \ + and_then; \ + } else { \ + SET_INFO(p1, ind_info); \ + LDV_RECORD_CREATE(p1); \ + TICK_UPD_NEW_IND(); \ + and_then; \ + } +#else +#define updateWithIndirection(ind_info, p1, p2, and_then) \ + { \ + bdescr *bd; \ + \ + /* cas(p1, 0, &stg_WHITEHOLE_info); */ \ + ASSERT( (P_)p1 != (P_)p2 && !closure_IND(p1) ); \ + DEBUG_FILL_SLOP(p1); \ + LDV_RECORD_DEAD_FILL_SLOP_DYNAMIC(p1); \ + ((StgInd *)p1)->indirectee = p2; \ + wb(); \ + bd = Bdescr((P_)p1); \ + if (bd->gen_no != 0) { \ + recordMutableGenLock(p1, &generations[bd->gen_no]); \ + SET_INFO(p1, &stg_IND_OLDGEN_info); \ + TICK_UPD_OLD_IND(); \ + and_then; \ + } else { \ + SET_INFO(p1, ind_info); \ + LDV_RECORD_CREATE(p1); \ + TICK_UPD_NEW_IND(); \ + and_then; \ + } \ + } +#endif + +/* The permanent indirection version isn't performance critical. We + * therefore use an inline C function instead of the C-- macro. + */ +#ifndef CMINUSMINUS +INLINE_HEADER void +updateWithPermIndirection(StgClosure *p1, + StgClosure *p2) +{ + bdescr *bd; + + ASSERT( p1 != p2 && !closure_IND(p1) ); + + /* + * @LDV profiling + * Destroy the old closure. + * Nb: LDV_* stuff cannot mix with ticky-ticky + */ + LDV_RECORD_DEAD_FILL_SLOP_DYNAMIC(p1); + + bd = Bdescr((P_)p1); + if (bd->gen_no != 0) { + recordMutableGenLock(p1, &generations[bd->gen_no]); + ((StgInd *)p1)->indirectee = p2; + SET_INFO(p1, &stg_IND_OLDGEN_PERM_info); + /* + * @LDV profiling + * We have just created a new closure. + */ + LDV_RECORD_CREATE(p1); + TICK_UPD_OLD_PERM_IND(); + } else { + ((StgInd *)p1)->indirectee = p2; + SET_INFO(p1, &stg_IND_PERM_info); + /* + * @LDV profiling + * We have just created a new closure. + */ + LDV_RECORD_CREATE(p1); + TICK_UPD_NEW_PERM_IND(p1); + } +} +#endif + +#endif /* UPDATES_H */ |